full_join#

full_join(G, H, rename=(None, None))[source]#

Returns the full join of graphs G and H.

Full join is the union of G and H in which all edges between G and H are added. The node sets of G and H must be disjoint, otherwise an exception is raised.

Parameters:
G, Hgraph

A NetworkX graph

renametuple , default=(None, None)

Node names of G and H can be changed by specifying the tuple rename=(ā€˜G-ā€˜,ā€™H-ā€™) (for example). Node ā€œuā€ in G is then renamed ā€œG-uā€ and ā€œvā€ in H is renamed ā€œH-vā€.

Returns:
UThe full join graph with the same type as G.

Notes

It is recommended that G and H be either both directed or both undirected.

If G is directed, then edges from G to H are added as well as from H to G.

Note that full_join() does not produce parallel edges for MultiGraphs.

The full join operation of graphs G and H is the same as getting their complement, performing a disjoint union, and finally getting the complement of the resulting graph.

Graph, edge, and node attributes are propagated from G and H to the union graph. If a graph attribute is present in both G and H the value from H is used.

Examples

>>> G = nx.Graph([(0, 1), (0, 2)])
>>> H = nx.Graph([(3, 4)])
>>> R = nx.full_join(G, H, rename=("G", "H"))
>>> R.nodes
NodeView(('G0', 'G1', 'G2', 'H3', 'H4'))
>>> R.edges
EdgeView([('G0', 'G1'), ('G0', 'G2'), ('G0', 'H3'), ('G0', 'H4'), ('G1', 'H3'), ('G1', 'H4'), ('G2', 'H3'), ('G2', 'H4'), ('H3', 'H4')])